BG113023A - Seawater treatment plant - Google Patents

Abstract

The created seawater treatment plant will find application both in energy and in the extraction of industrially applicable materials as a raw material for the metallurgical industry. The plant comprises an electrolysis apparatus (2) supplied with sea water from a tank (1) by a circulation pump (14), as the electrolysis apparatus (2) is connected by a second circulation pump (14) to a separator (5) connected to a drying apparatus ( 6), wherein the separator (5) is reconnected to the electrolysis apparatus (2). Furthermore, the electrolysis apparatus (2) is on the one side connected to a fuel cell (3) connected to an inverter (4), and on the other side the electrolysis apparatus (2) is also connected to a combustion apparatus (22) housed in the combustion chamber of an incinerator (8) connected to a superheated steam tank (9), which is connected to a turbine (10) connected to a generator (11) and through a pressure regulator (12) is connected to a steam-heat exchanger (13) , which is connected to the incinerator (8) via a third circulation pump (14). The fuel cell (3) is also connected to the drying apparatus(6) connected to a cooler (7), which is connected both directly and via a fourth circulation pump (14) to the tank (1). On the third side, the electrolysis apparatus (2) is connected to both a power unit (25) and a rectifier unit (24) connected to a power supply unit (23). The power unit (25) and the rectifier unit (24) are connected both to each other and to a control unit (26), which in turn is also connected to the electrolysis apparatus (2).

Description

Field of technology

The present invention relates to a seawater treatment plant which will find application both in energy and for the extraction of industrially applicable materials as a raw material for the metallurgical industry.

BACKGROUND OF THE INVENTION

There is no known seawater treatment plant in which treatment, in addition to obtaining Brown gas, to extract industrially applicable materials from the water, which are mainly a raw material for the metallurgical industry.

From patent № 66889 BG is known electrolysis apparatus for producing Brown gas, which can effectively work with sea water and other types of polluted water. The electrolysis apparatus consists of a vessel supplied with seawater from a tank by a circulating pump in which a vessel is placed an electrolyte cell. The process of production of Brown gas from sea water is an electrolytic process, accompanied by the release of a huge amount of sludge. The collected sludge is sent to a separator by a second circulation pump, from where it is piped to a dryer. The purified water from the separator is returned to the electrolysis apparatus by a third circulation pump.

Technical essence of the invention

The object of the invention is to provide a seawater treatment plant which, working efficiently with seawater and other types of polluted water, allows both the extraction of industrially applicable materials and to ensure the production of useful electricity for consumption by external consumers.

The problem was solved by creating a seawater treatment plant, including an electrolysis apparatus supplied with seawater from a tank by a circulating pump. The electrolysis apparatus is connected by a second circulation pump to a separator which is connected to a drying apparatus. The separator is reconnected to the electrolysis apparatus. According to the invention, the electrolysis apparatus is on the one hand also connected to a fuel cell connected to an inverter. On the other hand, the electrolysis apparatus is also connected to a combustion apparatus placed in the combustion chamber of an incinerator connected to a superheated steam tank which is connected to a turbine which is connected to a generator and through a pressure regulator the turbine is connected to a steam heat exchanger. The steam heat exchanger is connected to the incinerator via a third circulation pump. The fuel cell is also connected to the dryer connected to a cooler. The cooler is connected both directly and through a fourth circulation pump to the tank. On the third side, the electrolysis apparatus is connected to both a power unit and a rectifier unit connected to a power supply unit. The power unit and the rectifier unit are connected both to each other and to a control unit, which in turn is connected to the electrolysis apparatus.

The combustion apparatus consists of a housing mounted to a flange connected to a lower flange. A fire barrier is placed in the housing, above which is a nozzle lattice plate, to which are attached nozzle bases for mounting nozzles.

The advantage of the created installation is that after the separation of the Brown gas, the separation of sludge from industrially applicable materials, representing a raw material for the metallurgical industry, is ensured. The separated sludges, rich in polymetals, depending on the type and quality of the sea water, contain one or another metal element, and for some metals the percentage is comparable to those of the ore deposits. In addition, the sludge contains a variety of metal ions, salts, chlorides, sulphates, carbonates, etc., as well as atomic hydrogen and oxygen, one of which is a strong reducing agent and the other a strong oxidant, and thanks to which in combination with the controlled energy supplied by the power unit through the controlled unit interact selectively with the energies of the dissociated ions and as a result a kind of enriched sludge with metals is formed.

Another advantage of the invention is the production of electricity and heat through an installation that does not pollute the environment, does not create a greenhouse effect and does not change the climate of the earth. In addition, the nozzle base of the combustion apparatus allows easy installation of nozzles of different sizes, providing different flow rates of brown gas, which provides different final heat output.

Description of the attached figures

The present invention is illustrated in the accompanying drawings, in which:

Figure 1 is a schematic diagram of a seawater treatment plant according to the invention; and

Figure 2 is an axonometric view of a combustion apparatus from the seawater treatment plant of Figure 1.

Examples of the invention

The created seawater treatment plant shown in Figure 1 includes an electrolysis apparatus 2 supplied with seawater from a tank 1 by a circulation pump 14. The electrolysis apparatus 2 is connected by a second circulation pump 14 to a separator 5 which is connected to a drying apparatus. 6. The separator 5 is reconnected to the electrolysis apparatus 2. The electrolysis apparatus 2, on the one hand, is also connected to a fuel cell 3 connected to the inverter 4. On the other hand, the electrolysis apparatus 2 is also connected to a fuel apparatus 22 located in the combustion chamber of an incinerator 8 connected to a superheated steam tank 9, which is connected to a turbine 10, which is connected to a generator 11 and through a pressure regulator 12 is connected to a steam heat exchanger 13. The steam heat exchanger 13 is connected via a third circulation pump 14 with the incinerator 8. The fuel cell 3 is also connected to the dryer 6, connected to a cooler 7, which is connected both directly and through a fourth circulation pump 14 with a reserve. thirdly, the electrolysis apparatus 2 is connected to both the power unit 25 and the rectifier unit 24 connected to the power supply unit 23. The power unit 25 and the rectifier unit * · · · ·· ·· • · · · · · · In • * · · · · · · ···· * ·· * · »· * ··· * ί ·· are connected both to each other and to control unit 26, which in turn is connected and with the electrolysis apparatus 2.

The combustion apparatus 22 shown in Figure 2 consists of a housing 19 mounted to a flange 20 connected to a lower flange 21. A fire barrier 18 is housed in the housing 19, above which is a nozzle grating plate 17 to which nozzle bases 15 are attached. for mounting nozzles 16.

The created installation works as follows.

The electrolysis apparatus 2 is supplied with seawater from the tank 1 by the circulation pump 14. The entire flow of the electrolysis process is controlled by the control unit 26 and the power unit 25, whereby the sludge separated in the process is fed to the separator 5 by the second circulation pump 14. where they are separated from the aqueous emulsion. The separated water is returned to the electrolysis apparatus 2, and the separated sludge is fed to the dryer 6, where it is dried by the waste heat of the heated clean drinking water separated from the fuel cells 3. The residual separated water is fed to the cooler 7, where it is cooled by seawater from tank 1 and is addressed to consumers of drinking water. With the fourth circulation pump 14 the sea water is returned to the tank 1.

The formed Brown gas in the electrolysis apparatus 2 mainly supplies the fuel cells 3, part of which is directed to the combustion apparatus 22 for ignition and maintenance of combustion in the second energy circuit of the incinerator 8, which is a waste incineration boiler. The generated superheated steam in the incinerator boiler 8 is directed to the superheated steam tank 9, which serves as a buffer energy energy accumulator, which supplies the steam turbine 10, driving the generator 11, producing electricity for industry and household.

The supplied Brown gas from the electrolysis apparatus 2 to the combustion apparatus 22 passes through the fire barrier 18 mounted in its housing 19 and goes to the nozzles 16 mounted on the nozzle bases 15. The nozzle bases 15 allow different nozzles to be mounted to achieve different energy power . The housing 19 with the nozzle grate plate 17 welded to it, together with the flanges 20 and 21, form the combustion apparatus 22.

Claims (1)

PATENT CLAIMS A seawater treatment plant comprising an electrolysis apparatus supplied with seawater from a tank by a circulation pump, the electrolysis apparatus being connected by a second circulation pump to a separator which is connected to a drying apparatus, the separator being reconnected to the electrolysis apparatus, characterized in that the electrolysis apparatus (2) is on the one hand also connected to a fuel cell (3) connected to an inverter (4), on the other hand the electrolysis apparatus (2) is also connected to a combustion apparatus (22) , placed in the combustion chamber of an incinerator (8), connected to a superheated steam tank (9), which is connected to a turbine (10), which is connected to a generator (I) and through a pressure regulator (12) is connected to a steam line a heat exchanger (13), which is connected to the incinerator (8) by a third circulation pump (14), and the fuel cell (3) is also connected to the dryer (6) connected to a cooler (7), which is connected both directly, as well as through the fourth circulation pump (14) with the tank (1), and on the third side the electrolysis apparatus (2) is connected both to the power unit (25) and to the rectifier unit (24) connected to the power supply unit (23), such as the power unit (25) and the rectifier unit (24) are connected to each other and to a control unit (26), which in turn is connected to the electrolysis apparatus (2), wherein the combustion apparatus (22) is composed of a housing (19) mounted to a flange (20) connected to the lower flange (21), and in the housing (19) is placed a fire barrier (18), above which is a nozzle lattice plate (17), to which are attached nozzle bases (15) for mounting nozzles (16).